DOCSLIB.ORG

GIANT ANTEATER PILOSA Family: Myrmecophagidae Genus: Myrmecophaga

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
GIANT ANTEATER PILOSA Family: Myrmecophagidae Genus: Myrmecophaga GIANT ANTEATER PILOSA Family: Myrmecophagidae Genus: Myrmecophaga Species: tridactyla Range: Southern Mexico, Central America, South to Paraguay & Northern Argentina, & Trinidad Habitat: savanna, parkland, thorn Scrub, Steppe; montaine & tropical rainforest Niche: terrestrial, nocturnal, insectivorous Wild diet: ants, termites, and soft-bodied grubs Zoo diet: ant chow Life Span: (Wild) unknown (Captivity) 25 yrs 10 months recorded Sexual dimorphism: None Location in SF Zoo: Puente al Sur APPEARANCE & PHYSICAL ADAPTATIONS: Giant anteaters are quite distinctive, and are the largest of the anteaters. The snout is long (up to 45 cm in length) while the skull is streamlined with small eyes and ears. The tail is bushy and nearly as long as the body. These anteaters have thick coarse fur that is longer towards the tail (reaching up to 40 cm in length). Their coat is straw-like, brown with black and white stripes on the shoulders and a crest of hair along the middle of the back. Forelegs are white with black bands at the toes, while their hind feet have 5 short claws, and their forefeet have five claws with the inner three being very long and sharp. They shuffle while walking and move slowly but are capable of running quickly if necessary. Their weight is born on the Weight: 39.6 to 85.8 lbs knuckles and wrist to protect the claws. These front limbs provide HRL: 3.28 to 3.94 ft TL: 3.5 ft some defense against its natural predators, the puma and the jaguar. Giant anteaters have long, tubular snouts, well adapted for working its way into the anthills and termite nests it rips open with its large front claws. The tongue, measring up to 24 in. has backward pointing spine-like protrusions and is covered in sticky saliva, which helps gather the tiny insects it eats. The tongue can be flicked in and out up to 150 times/min. Giant anteaters have no teeth so prey are ground up in its muscular stomach. STATUS & CONSERVATION Habitat destruction is the primary threat to giant anteaters. They are listed as Appendix II by the (CITES). Appendix II lists a species not necessarily threatened to extinction but one that should be controlled in trade to avoid overuse. They are listed as vulnerable by the (IUCN). 'Vulnerable' is defined as an estimated population reduction of 20% in the next 10 years. Population reduction in the form of an observed, estimated, inferred or suspected reduction of at least 80% over the last 10 years, or three generations based on a decline in area of occupancy, extent of occurrence or quality of habitat and actual or potential levels of exploitation. COMMUNICATION AND OTHER BEHAVIOR Giant anteaters are usually solitary, except for mother-young pairs, or only coming together for brief periods for courtship and agonistic encounters. They may have large, defined home ranges up to 9,000 ha in area, but they also wander extensively. When giant anteaters encounter each other in the wild they often simply ignore each other or run away, Giant anteaters will become nocturnal in areas of high human density or during certain kinds of weather. They are terrestrial but are good swimmers as well and, though they don't often climb in the wild, they are reported to be skilled at climbing out of enclosures in captivity. Sleeping occurs in abandoned burrows, dense vegetation, or depressions in the ground. Although they have the ability to dig well, they do not construct burrows. When fights do occur, individuals will rear up into a bipedal stance using the tail as balance and forelimbs to fight. Most communication occurs between young and their mothers or during fighting. It consists of snorts, sniffs, and hisses, as well as roaring during fights. Sight and hearing are diminished. Smell is highly developed (40 times that of humans). COURTSHIP AND YOUNG Giant anteaters can breed year round or seasonally depending on region or as often as every 9 months, though it is often longer. Female gives birth standing up and immediately the young anteater climbs onto her back. Young are born with a full coat of hair and adult-like markings. A mother will carry the baby on her back until it is almost half her size, at about 6 to 9 months. Young suckle for 2 to 6 months, and then become independent after about 24 months (average), or when the mother becomes pregnant again, which may be sooner. Gestation: avg 190 days Sexual Maturity: M 2.50 to 4 years / F 2.50 to 4 years # of Mammae: Weaning Age: 6 months (average) # of Young: 1 Weight at birth: 56.32 oz MISCELLANEOUS Of all the Edentates, the anteaters are the only toothless members. It has been estimated that they can consume up to 30,000 ants and termites a day and their tongue can move in and out 150 times a minute. The order Pilosa, meaning “hairy”, is part of the superorder Xenarthra, meaning “strange joints”, with the armadillos. Earlier still, both armadillos and pilosans were classified together with pangolins and the aardvark as the order Edentata meaning “toothless”. Sources: updated: 3/08 MacDonald 1984 p 770 - 775 Ill. Ency. Of Plants & Animals © 1979 p 323 http://animaldiversity.ummz.umich.edu/site/accounts/information/Myrmecophaga_tridactyla.html http://animals.about.com/cs/mammals/p/giantanteater.htm http://www.endangeredandrareanimals.com/edentates.htm .
Load more

Recommended publications
  • Introduction Recent Classifications Regard the Order Pilosa, Anteaters
    Introduction Recent classifications regard the order Pilosa, anteaters and sloths, and order Cingulata, the armadillos, within the superorder Xenarthra meaning “strange joints”. In the past, Pilosa and Cingulata wer regarded as suborders of the order Xenarthra, with the armadillos. Earlier still, both armadillos and pilosans were classified together with pangolins and the aardvark as the order Edentata meaning “toothless”. The orders Pilosa and Cingulata are distinguishable as the cingulatas have an armoured upper body and the pilosa have fur. Studies have concluded that sloths, anteaters, and armadillos diverged at least 75-80 million years ago and that they are as different from one another as are carnivores, bats and primates. The Pilosa are now considered almost exclusively a New World order, however, fossil records indicate that they were once found in Europe and possibly Asia. This order may have been distributed worldwide in the Cretaceous period, but became limited to South America and have remained there for most of their history and evolved into numerous groups. The Pilosa were once far more diverse than they are today; there are known to be 10 times as many fossil as living genera. The superorder is distinguished from all others by what are known as the xenarthrous vertebrae. There are secondary and sometimes even more, articulations between the vertebrae of the lumbar (lower back) series. In other words, consecutive vertebrae connect in more than one place. In addition, the pelvis connects with more of the spine than in other mammals. These adaptations to the spine give support, particularly to the hips. The name Xenarthra refers to this peculiarity of the spine and modem taxonomy places these three groups of animals together, even though they are very different from one another and they are highly specialized.
    [Show full text]
  • New Radiometric 40Ar–39Ar Dates and Faunistic Analyses Refine
    www.nature.com/scientificreports OPEN New radiometric 40Ar–39Ar dates and faunistic analyses refne evolutionary dynamics of Neogene vertebrate assemblages in southern South America Francisco J. Prevosti1,2*, Cristo O. Romano2,3, Analía M. Forasiepi2,3, Sidney Hemming4, Ricardo Bonini2,5, Adriana M. Candela2,6, Esperanza Cerdeño2,3, M. Carolina Madozzo Jaén2,7,8, Pablo E. Ortiz2,7, François Pujos2,3, Luciano Rasia2,6, Gabriela I. Schmidt2,9, Matias Taglioretti10,11,12, Ross D. E. MacPhee13 & Ulyses F. J. Pardiñas2,14,15 The vertebrate fossil record of the Pampean Region of Argentina occupies an important place in South American vertebrate paleontology. An abundance of localities has long been the main basis for constructing the chronostratigraphical/geochronological scale for the late Neogene–Quaternary of South America, as well as for understanding major patterns of vertebrate evolution, including the Great American Biotic Interchange. However, few independently-derived dates are available for constraining this record. In this contribution, we present new 40Ar/39Ar dates on escorias (likely the product of meteoric impacts) from the Argentinean Atlantic coast and statistically-based biochronological analyses that help to calibrate Late Miocene–Pliocene Pampean faunal successions. For the type areas of the Montehermosan and Chapadmalalan Ages/Stages, our results delimit their age ranges to 4.7–3.7 Ma and ca. 3.74–3.04 Ma, respectively. Additionally, from Buenos Aires Province, dates of 5.17 Ma and 4.33 Ma were recovered for “Huayquerian” and Montehermosan faunas. This information helps to better calibrate important frst appearances of allochthonous taxa in South America, including one of the oldest records for procyonids (7.24–5.95 Ma), cricetids (6.95– 5.46 Ma), and tayassuids (> 3.74 Ma, oldest high-confdence record).
    [Show full text]
  • SHORT COMMUNICATION Use of Boat Surveys to Provide Complementary Data on the Ecology of Bradypus Tridactylus (Pilosa: Bradypodi
    Edentata 13 (2012): 56–60 Electronic version: ISSN 1852-9208 Print version: ISSN 1413-4411 http://www.xenarthrans.org SHORT COMMUNICATION Use of boat surveys to provide complementary data on the ecology of Bradypus tridactylus (Pilosa: Bradypodidae) from northern Amazonia Juliana lauFEr A,B, JoycE a. amador A, Paula c. concEição A, darrEn norriS A,C and FErnanda micHalSKi A,B,D,¹ A Laboratório de Ecologia e Conservação de Vertebrados, Universidade Federal do Amapá, Rod. Juscelino Kubitscheck, km 02, 68902-280, Macapá, AP, Brazil. E-mail: [email protected] B Programa de Pós-Graduação em Biodiversidade Tropical, Universidade Federal do Amapá, Rod. Juscelino Kubitscheck, Km 02, 68902-280, Macapá, AP, Brazil. C Laboratório de Biologia da Conservação, Departamento de Ecologia, Universidade Estadual Paulista, C.P. 199, 13506-900, Rio Claro, SP, Brazil. E-mail: [email protected] D Instituto Pró-Carnívoros, C.P. 10, 12940-970, Atibaia, SP, Brazil. E-mail: [email protected] 1 Corresponding author Abstract Here we present new data on relative abundance and diet of Bradypus tridactylus Linnaeus, 1758 resulting from 2,505 km of river based surveys conducted in northern Amazonia. Our sampling effort using a motorized boat provided a low number of B. tridactylus detections (n = 4, relative abundance of 0.02 indi- viduals/10 km surveyed). Our observations provide the first record of Parkia velutina Benoist (Legumino- sae – Mimosoideae) consumption for B. tridactylus. We contribute with recommendations of standardized complementary survey techniques that can be used to provide data on relative abundance of arboreal mam- mals such as sloths in tropical forests.
    [Show full text]
  • Session 1D Conservation of the Pygmy Sloth, Bradypus Pygmaeus
    Michigan Technological University Digital Commons @ Michigan Tech Global Conference of the Youth Environmental Alliance in Higher Education 3rd YEAH Conference Apr 21st, 1:25 PM - 1:34 PM Session 1D Conservation of the Pygmy sloth, Bradypus pygmaeus Paige Copcutt University of Derby Follow this and additional works at: https://digitalcommons.mtu.edu/yeah-conference Recommended Citation Copcutt, Paige, "Session 1D Conservation of the Pygmy sloth, Bradypus pygmaeus" (2021). Global Conference of the Youth Environmental Alliance in Higher Education. 17. https://doi.org/10.37099/mtu.dc.yeah-conference/april2021/all-events/17 Follow this and additional works at: https://digitalcommons.mtu.edu/yeah-conference Paige Copcutt University of Derby [email protected] Habitat loss and fragmentation (figure Restricted home range 2) The island has seasonal visitors who They predominantly inhabit utilise the mangrove forests for mangroves that represent only charcoal and building (Superina et al., 30% of the island (figure 3) 2010; Voirin, 2015). (Aguiar, 2004). THE PYGMY SLOTH Lack of authority and Proposed tourism wildlife protection on the infrastructure (Vorin Discovered in 2001(Voirin, 2015), the pygmy three toed sloth Bradypus pygmaeus (figure 1) is restricted to island (Aguiar, 2004). et al., 2014). the island of Escudo de Veraguas which separated from mainland Panama over 8000 years ago (O’Neill, 2018). Being endemic to the island (Superina et al., 2010) has resulted in speciation, bringing about their PROPOSED CONSERVATION STRATEGIES recognition as distinct from their mainland sibling; the brown throated three toed sloth (Bradypus variegatus) (Anderson and Handley, 2001). Conservation of the pygmy sloth will focus on in situ methods.
    [Show full text]
  • A New Genus and Species of Ground Sloth (Mammalia, Xenarthra, Megalonychidae) from the Hemphillian (Late Miocene) of Jalisco, Mexico
    Journal of Paleontology, 91(5), 2017, p. 1069–1082 Copyright © 2017, The Paleontological Society 0022-3360/17/0088-0906 doi: 10.1017/jpa.2017.45 Increased xenarthran diversity of the Great American Biotic Interchange: a new genus and species of ground sloth (Mammalia, Xenarthra, Megalonychidae) from the Hemphillian (late Miocene) of Jalisco, Mexico H. Gregory McDonald1 and Oscar Carranza-Castañeda2 1Bureau of Land Management, Utah State Office, 440 West 200 South, Salt Lake City, Utah USA 84101-1345 〈[email protected]〉 2Centro de Geociencias, Campus Juriquilla, Universidad Nacional Autónoma de México, C.P. 76230, Juriquilla, Querétaro, México 〈[email protected]〉 Abstract.—A new genus and species of megalonychid sloth, Zacatzontli tecolotlanensis n. gen. n. sp., is described from the late Hemphillian of Jalisco, Mexico. Comparison and analysis of the type specimen, a mandible, with other megalonychid sloths shows a closer relationship to South American taxa than those from North America or the Caribbean. This suggests that during the early stages of the Great American Biotic Interchange there were two separate dispersal events of megalonychid sloths—an earlier one represented by Pliometanastes and the later one by Zacatzontli n. gen. While the morphology of the spout of Zacatzontli more closely resembles that of Megalonyx, based on the current record, Zacatzontli does does not enter North America until after the evolution of Megalonyx from Pliometanastes. The role of the northern neotropics in South America as a staging area for South American taxa that entered North America is discussed. Introduction various early Blancan localities, dated at 4.7 Ma. We note that the Hemphillian-Blancan boundary as used here (4.8–4.7 Myr; Ongoing research of the geology and paleontology of the late Flynn et al., 2005) is later than that of Lindsay et al.
    [Show full text]
  • Evolution of Body Size in Anteaters and Sloths (Xenarthra, Pilosa): Phylogeny, Metabolism, Diet and Substrate Preferences N
    Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 106, 289–301, 2017 Evolution of body size in anteaters and sloths (Xenarthra, Pilosa): phylogeny, metabolism, diet and substrate preferences N. Toledo1,2, M.S. Bargo2,3, S.F. Vizcaı´no1,2, G. De Iuliis4 and F. Pujos5 1 CONICET – La Plata, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, Argentina. Email: [email protected] 2 Divisio´n Paleontologı´a Vertebrados, Unidades de Investigacio´n Anexo Museo FCNyM-UNLP, Av. 60 y 122, 1900, La Plata, Argentina. 3 Comisio´n de Investigaciones Cientı´ficas, Buenos Aires, Argentina. 4 Department of Ecology and Evolutionary Biology, University of Toronto, 25 Harbord Street, Toronto M5S 3G5, Ontario, Canada; Section of Palaeobiology, Department of Natural History, Royal Ontario Museum, 100 Queen’s Park Crescent, Toronto M5S 2C6, Ontario, Canada. 5 IANIGLA,CCT-CONICET-Mendoza,Av.RuizLeals/n,ParqueGral.SanMartı´n, 5500 Mendoza, Argentina. ABSTRACT: Pilosa include anteaters (Vermilingua) and sloths (Folivora). Modern tree sloths are represented by two genera, Bradypus and Choloepus (both around 4–6 kg), whereas the fossil record is very diverse, with approximately 90 genera ranging in age from the Oligocene to the early Holocene. Fossil sloths include four main clades, Megalonychidae, Megatheriidae, Nothrotheriidae, and Mylo- dontidae, ranging in size from tens of kilograms to several tons. Modern Vermilingua are represented by three genera, Cyclopes, Tamandua and Myrmecophaga, with a size range from 0.25 kg to about 30 kg, and their fossil record is scarce and fragmentary. The dependence of the body size on phylo- genetic pattern of Pilosa is analysed here, according to current cladistic hypotheses.
    [Show full text]
  • FOOD PREFERENCE of GIANT ANTEATER and COLLARED ANTEATER (Pilosa, Myrmecophagidae) REGARDING the TERMITE DEFENSE STRATEGIES
    234 Original Article FOOD PREFERENCE OF GIANT ANTEATER AND COLLARED ANTEATER (Pilosa, Myrmecophagidae) REGARDING THE TERMITE DEFENSE STRATEGIES PREFERÊNCIA ALIMENTAR DE TAMANDUÁ BANDEIRA E DE TAMANDUÁ MIRIM (Pilosa, Mirmecophagidae) EM RELAÇÃO À ESTRATÉGIA DE DEFESA DOS CUPINS Hélida Ferreira da CUNHA1; Tiago Fernandes CARRIJO2,3; Anna Carolina PRESTES4; 5 6 7 7 Lucas Souza ARRUDA ; Pollyane B. REZENDE ; Thiago SANTOS ; Divino BRANDÃO 1. Universidade Estadual de Goiás, Anápolis, GO, Brazil. [email protected]; 2. Museu de Zoologia da Universidade de São Paulo, São Paulo, SP, Brazil; 3. Faculdade de Filosofia Ciências e Letras de Ribeirão Preto, Ribeirão Preto, SP, Brazil; 4. Universidade de Brasília, Brasília, DF, Brazil; 5. Universidade Federal Rural de Pernambuco, Recife, PE, Brazil; 6. Secretaria Municipal de Meio Ambiente, Anápolis, GO, Brazil; 7 Universidade Federal de Goiás, Goiânia, GO, Brazil. ABSTRACT: Giant (Myrmecophaga tridactyla) and collared anteaters (Tamandua tetradactyla) are common mammals in the Cerrado biome. They are specialized in eating termites (Isoptera, Blattaria) and ants (Formicidae, Hymenoptera). This study tested the preference of the giant anteater for termites with different defense strategies: 1) soldier with chemical defense and a soft nest (Nasutitermes), and 2) soldier with mixed defenses - chemical and mechanical - and a hard nest (Cornitermes). Pieces of nests of both genera of termites were provided to captive giant anteaters, their behaviors were observed, and the time spent feeding in each termite nests was recorded. The anteaters exploited both termite species, although no significance difference was found, they spent more time feeding on Cornitermes than on Nasutitermes. The stomach contents of one road-killed giant anteater and one collared anteater were analyzed.
    [Show full text]
  • Southern Two-Toed Sloths Have Two Long, Hook-Clawed Toes on Each of Their Front Feet, Which Are Closely Bound Together with Skin for Their Entire Length
    SOUTHERN TWO -TOED SLOTH PILOSA Family: Megalonychidae Genus: Choloepus Species: didactylus Range: Northern South America; Colombia, Venezuela, the Guianas, Ecuador, Peru, and northern Brazil up to 7,999 ft Habitat: Canopies of tropical and cloud forests Niche: nocturnal, arboreal, herbivorous Wild diet: leaves, twigs, buds, fruit, and occasionally rodents, and insects Zoo diet: Life Span: (Wild) 10 - 25 years, (Captivity) 30 years Sexual dimorphism: none Location in SF Zoo: South American Tropical Rainforest and Aviary APPEARANCE & PHYSICAL ADAPTATIONS: Southern Two-Toed Sloths have two long, hook-clawed toes on each of their front feet, which are closely bound together with skin for their entire length. The hind feet have three clawed toes. The head is short and flat, with a snub nose and good sense of smell, rudimentary ears, and large eyes. They lack a tail. An external coat of long coarse hair and dense smooth undercoat provides good insulation. Individuals can have 6, 7 or sometimes 8 cervical vertebrae. They are quite light weight for a mammal their size, which is Wt: 8.75 - 19 lbs HRL: 21 – 29 in helpful when harvesting leaves from long, thin branches. TL: .5 – 1.5 in Sloths move slowly and deliberately, spending a large portion of their time hanging upside down. Limbs are extremely mobile, allowing support for their body in many positions. The long, brownish, coarse fur curves from stomach to back, opposite that of most mammals, and may help slough off water. These hairs have longitudinal furrows and due to the sloth’s sedentary lifestyle collect algae; this gives a greenish tint to the sloth and camouflages it from predators.
    [Show full text]
  • Goal Scored for Armadillo Conservation!
    Edentata 13 (2012): 95–96 Electronic version: ISSN 1852-9208 Print version: ISSN 1413-4411 http://www.xenarthrans.org NEWS Goal scored for armadillo conservation! Pilosa (Superina et al., 2012a): Bradypus variegatus: DD The Brazilian three- Myrmecophaga tridactyla: VU A2c+3c banded armadillo Tamandua tetradactyla: NT (Tolypeutes tricinctus) will Cingulata (Superina et al., 2012b): be the 2014 FIFA World Cabassous chacoensis: NT Cup Mascot! We are ab- Cabassous tatouay solutely thrilled that : VU B1ab(iii) an armadillo listed as Calyptophractus retusus: DD Vulnerable by the IUCN Chaetophractus nationi: DD Red List of Threatened Chaetophractus vellerosus: LC Species will be featured Chaetophractus villosus: LC in such an important event. Let’s hope this will not Chlamyphorus truncatus: DD only trigger conservation initiatives to save this Dasypus hybridus: NT charismatic little creature from extinction, but also Dasypus novemcinctus: LC help increase awareness for biodiversity conserva- Dasypus septemcinctus: DD tion in general. Dasypus yepesi: DD Euphractus sexcinctus: LC The 2012 edition of the Red List of Priodontes maximus: En A2cd+3cd Tolypeutes matacus: NT Threatened Mammals of Argentina has Zaedyus pichiy: NT been published! References Two out of ten mammals of Argentina Superina, M., A. M. Abba & S. F. Vizcaíno. are threatened by ex- 2012a. Orden Pilosa. Pp. 59–60 in: Libro Rojo de los tinction. This means Mamíferos de Argentina (R. A. Ojeda, G. Díaz & V. that in the 2012 issue Chillo, eds.). SAREM, Mendoza, Argentina. of the national Red List, Superina, M., A. M. Abba & S. F. Vizcaíno. 81 of the 385 known 2012b. Orden Cingulata. Pp. 61­­–66 in: Libro Rojo de mammals inhabiting los Mamíferos de Argentina (R.
    [Show full text]
  • The Evolution of Armadillos, Anteaters and Sloths Depicted by Nuclear and Mitochondrial Phylogenies: Implications for the Status of the Enigmatic Fossil Eurotamandua
    The evolution of armadillos, anteaters and sloths depicted by nuclear and mitochondrial phylogenies: implications for the status of the enigmatic fossil Eurotamandua. Frédéric Delsuc, François Catzeflis, Michael Stanhope, Emmanuel Douzery To cite this version: Frédéric Delsuc, François Catzeflis, Michael Stanhope, Emmanuel Douzery. The evolution of armadil- los, anteaters and sloths depicted by nuclear and mitochondrial phylogenies: implications for the status of the enigmatic fossil Eurotamandua.. Proceedings of the Royal Society B: Biological Sciences, Royal Society, The, 2001, 268 (1476), pp.1605-15. 10.1098/rspb.2001.1702. halsde-00192975 HAL Id: halsde-00192975 https://hal.archives-ouvertes.fr/halsde-00192975 Submitted on 30 Nov 2007 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Final version accepted for publication in The Proceedings of the Royal Society of London B [20.04.2001] Main text = 4753 words ______________________________________________________________________ The evolution of armadillos, anteaters, and sloths depicted by nuclear and mitochondrial phylogenies: implications for the status of the enigmatic fossil Eurotamandua . Frédéric DELSUC 1* , François M. CATZEFLIS 1, Michael J. STANHOPE 2 and Emmanuel J. P. DOUZERY 1 1 Laboratoire de Paléontologie, Paléobiologie et Phylogénie, Institut des Sciences de l’Evolution, Université Montpellier II, Montpellier, France 2 Biology and Biochemistry, Queens University, 97 Lisburn Road, Belfast BT9 7BL, UK.
    [Show full text]
  • Why Do Xenarthrans Matter?
    Journal of Mammalogy, 96(4):617–621, 2015 DOI:10.1093/jmammal/gyv099 Why do Xenarthrans matter? Mariella Superina* and W. J. Loughry Instituto de Medicina y Biología Experimental de Cuyo, CCT CONICET Mendoza, Casilla de Correos 855, Mendoza 5500, Argentina (MS) Department of Biology, Valdosta State University, Valdosta, GA 31698, USA (WJL) * Correspondent: [email protected] Xenarthrans possess a suite of characteristics that make them among the most unusual of mammals. Understanding the functional significance of these traits is one prominent reason why xenarthrans matter. In addition, Xenarthra is currently considered one of the basal clades of placental mammals, and the only one to originate in South America. Consequently, studies of xenarthrans can provide important insights into the evolution of early placentals. The fossil record contains hundreds of recognized species of xenarthrans but this rich evolutionary history is currently distilled into just 31 extant species. Preserving this heritage through various conservation initiatives is yet another reason why xenarthrans matter. This Special Feature on xenarthrans provides an overview of current work and identifies many areas requiring further study. It is our hope that this Special Feature will raise the profile of xenarthrans among mammalogists and perhaps entice some to consider addressing one or more of the many lingering questions that remain about this enigmatic group. ¿Por qué importan los xenartros? Los xenartros poseen una serie de características que los convierten en algunos de los mamíferos más inusuales. La comprensión del significado funcional de estos rasgos es una de las razones sobresalientes de por qué los xenartros importan. Adicionalmente, los xenartros son actualmente considerados uno de los clados basales de los mamíferos placentarios, y el único que tuvo su origen en América del Sur.
    [Show full text]
  • Xenarthra (Orders Pilosa and Cingulata) • Order Pilosa
    Xenarthra (Orders Pilosa and Cingulata) • Order Pilosa • Myrmecophagidae (anteaters) • Cyclopedidae (silky anteaters) • Bradypodidae (3-toed sloths) • Megalonychidae (2-toed sloths) • Order Cingulata • Dasypodidae (armadillos) • Xenarthra means “strange jointed”- refers to the accessory zygapophyses on the lumbar vertebrae Xenarthra (Orders Pilosa and Cingulata) • Xenarthrans were diverse when S. America was still an island continent Order Pilosa Family Myrmecophagidae (2 genera, 4 species) • Genus Myrmecophaga (Giant anteater) • Mostly diurnal, terrestrial, live up to 26 years in captivity • NW Argentina through S America east of Andes to C America • Long tongue (up to 60 cm) w/ backward spines & sticky saliva, controlled by muscles attached to sternum Order Pilosa Family Myrmecophagidae (2 genera, 4 species) • Genus Tamandua • Active day & night, terrestrial & arboreal, live up to 9 years in captivity • S Mexico to N Peru, Venezuela to Argentina, east of Andes • Savannas, thorn scrub, wet and dry forests Order Pilosa Family Cyclopidae (silky anteaters) • Genus Cyclopes • Nocturnal, almost completely arboreal • S Mexico to Brazil, possible Paraguay • Weighs less than 400 g (0.88 lbs) Anteater defensive postures Order Pilosa Family Bradypodidae (3-toed sloths) Family Megalonychidae (2-toed sloths) • Arboreal, folivorous, live up to 12 years • C America south into Brazil, east of Andes • Simple, ever-growing teeth • 2-toed has canine-like front teeth • Fur is grooved & turns green w/ algae Order Cingulata Family Dasypodidae (armadillos)
    [Show full text]